People with more yellow pigment in their eye may be better able to see distant objects in hazy conditions, according to a new paper in Optometry and Vision Science.

Increased macular pigment (MP) may help in filtering out "blue haze," thus making distant objects more visible, according to an experimental study by Laura M. Fletcher, MS, and colleagues of University of Georgia, Athens. "The results suggest that people with high levels of yellow macular pigment may have some slight advantage in hazy and glare conditions," comments Anthony Adams, OD, PhD, Editor-in-Chief of Optometry and Vision Science.

Macular Pigment Affects Vision through 'Blue Haze'

The researchers tested the effects of
macular pigment
on the ability to see distant objects through "atmospheric scattering," or haze. Some people have more
macular pigment
than others.

The researchers designed an experiment to simulate hazy conditions to see if individuals with higher levels of
macular pigment
can better see distant targets. Laboratory studies were performed using xenon light, paired with a specialized glass filter, to closely approximate the effects of atmospheric haze. The subjects varied widely in the density of
macular pigment
present in the eye.

At increasing levels of simulated blue haze background, the visibility of distant objects decreased significantly. However, individuals with higher levels of MP required more stimulated haze before they could no longer see the distant target.

For subjects with the highest versus lowest levels of MP, there was about a twofold difference in the amount of haze required to lose sight of the distant object. The researchers write, "An individual with high MP optical density would be able to detect a target at a much greater distance (ie, more atmospheric haze between them and the target) than an individual with lower MP optical density."

Can Increased Macular Pigment Improve Outdoor Vision?

The presence of yellow pigment in the macula represents accumulations of the nutrients lutein and zeaxanthin. By filtering out short-wave light, MP may protect long-term damage to the eye.

But from an evolutionary standpoint, it's much more likely that accumulations of MP could develop as a result of favorable effects on vision. The new findings support the "visibility hypothesis" of MP accumulation: by absorbing atmospheric haze, which is predominantly short-wavelength light, the presence of MP may extend visual range outdoors.

In this experiment, the effect seems large enough to provide a visual advantage of higher levels of MP for people who rely heavily on outdoor vision—for example, pilots. According to Fletcher and coauthors, the next "obvious step" in research would be to test the effects of different levels of MP on visibility in outdoor settings.